RU2460187C2 - Transition frame with inbuilt pressing device - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to a frame (1, 12, 19) to receive at least one module (2, 22) for passage of a cable or a pipe. An integrated part of the frame (1, 12, 19) is a pressing device (8, 23), which compresses modules (2, 22) inside the frame (1, 12, 19). The pressing device (8, 23) comprises three pressing wedges (9 - 11, 25, 26). The upper and lower pressing wedges (9 - 11, 25, 26) have identical alignment, while the medium pressing wedge (11, 26) has an opposite alignment. The average pressing wedge (11, 26) is aligned so that the wide side (31) faces a hole (3, 13) of the frame (1, 12, 19) to receive modules (2, 22). Via holes (32) of the upper and lower pressing wedges (9, 10, 25) and via a slot (34) in the medium pressing wedge (11, 26) at least one pressing screw (7, 24) stretches.

EFFECT: invention provides for development of a simple-to-use device ensuring integration of a pressing device and a frame.

12 cl, 10 dwg

Description

FIELD OF TECHNOLOGY

The present invention relates to a frame including modules for passing cables or pipes with at least one clamping device.

BACKGROUND

Cable transitions and the like are known, comprising a frame within which several modules are arranged to accommodate cables, wires or pipes. These modules are made of an elastic material, for example rubber or plastic, and thus can be compressed. Typically, inside the frame, several modules are arranged side by side in at least one row together with the clamping device. The clamping device is located between the frame and the modules, so that when it expands, the compressible modules will be compressed around cables, wires or pipes. Typically, the clamping devices used in cable or pipe junctions are stand-alone devices designed to be placed inside the frame together with receiving modules for receiving single cables or pipes.

Cable transitions are used for sealing in various equipment, such as cabinets, technical structures, junction boxes and machines. They are used in various industrial equipment, automotive, telecommunications, in the field of production and distribution of electricity, as well as in the marine and coastal zones. The modules allow sealing against the effects of liquid, gas, fire, rodents, termites, dust, moisture, etc. and can accommodate electrical cables, communication cables, computer cables, etc. or pipes for various gases or liquids, such as water, compressed air, working fluid and household gas.

SUMMARY OF THE INVENTION

By integrating the pressure device or devices with the frame, the number of individual parts to be mounted in the frame is reduced.

The present invention is the creation of simpler to manufacture, use and storage of transitions of this type. Another objective of the present invention is the integration of the clamping device with the frame, which allows to simplify its use. In addition, it is preferable that the pressing device was manufactured in the same process step as the rest of the frame. In the manufacture, a seal may also be formed, which is placed adjacent to the partition on which the frame is mounted.

Another objective of the present invention is the formation of relatively simple clamping devices.

The above problems are solved by using a transition frame containing an opening for accommodating at least one module in which the pressing device is an integrated part of the frame. The adapter frame forms a passage for cables or pipes together with the modules. The frame and the integrated clamping device are made in one technological operation.

From the following detailed description of preferred embodiments of the present invention, other objects and advantages of the present invention will become apparent to those skilled in the art.

BRIEF DESCRIPTION OF THE DRAWINGS

An exemplary embodiment of the present invention is described below with reference to the accompanying drawings, in which:

figure 1 shows a perspective view of a first example of a frame according to the present invention,

figure 2 shows a cross section of the frame shown in figure 1, on which for clarity some details are excluded,

figure 3 shows a bottom view of a frame with a clamping device,

figure 4 shows a perspective view of one element of the clamp

devices according to the present invention,

5 shows a perspective view of another clamping element

devices according to the present invention,

6 shows schematically the principle of operation of the clamp

devices according to the present invention,

Fig.7 shows a perspective top view of another example of a frame according to the present invention,

Fig.8 shows a perspective view from below of the frame shown in Fig.7,

Fig.9 shows a cross section of part of the frame shown in Fig.7 and 8,

and

figure 10 shows a perspective view of another example of a frame according to the present invention, containing modules for accommodating cables or tubes.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FOR CARRYING OUT THE INVENTION

Used in the present description, the terms "upper", "lower" and similar expressions indicate directions relative to the frame having an orientation, which is shown in figures 1, 2 and 7.

Figure 1 shows a first example of a frame 1 according to the present invention, which is designed to be placed in an opening of a wall, roof, floor or base of a building, ship, electrical cabinet, container, etc. Walls, roof, floor or base can be any separating structures or partitions. The frame forms the transition for cables and pipes together with the modules located in the frame 1.

In the frame 1 there are several modules 2. The modules 2 are located in the hole 3 of the frame. Modules 2 are made with the possibility of receiving pipes or cables and contain several easily removable sheets for fitting the inner diameter to the outer diameter of the placed cable or tube.

To hold the modules 2 inside the frame 1, an edge 5 is made on the upper edge of the hole 3 for accommodating the modules 2, which converts the hole 3 into a smaller hole 4, above the edge 5. The edge 5 extends along the perimeter of the upper edge of the hole. Thus, the modules 2 are usually inserted into the hole 3 from the bottom. The frame 1 can be mounted on the partition using screws 6 or other suitable fixing means.

The frame 1 includes a clamping device 8, which is located in the space at one end of the frame 1, which is open at the bottom and in the direction of the opening 3 of the frame 1. The upper part of the space is closed to hold the clamping device. Thus, by means of the clamping device 8, a tight seal of each cable and / or pipe is ensured. The pressing device 8 contains three main elements, each of which has a wedge-shaped shape. Two of the three elements — the lower pressure wedge 9 and the upper pressure wedge 10 — have the same orientation, while the middle pressure wedge 11 has the opposite orientation. The lower and upper pressure wedges 9, 10 comprise one inclined surface facing the middle pressure wedge 11. The surface of the lower and upper pressure wedges 9, 10 opposite the inclined surface is not inclined. Essentially, the lower and upper pressure wedges 9, 10 are identical. However, for the proper location of the middle clamping wedge 11 with respect to the modules 2, they can have different thicknesses. In addition, one of the pressure wedges 9, 10 typically comprises a cutout for receiving the nut 37 with the clamp screw 7. When the inclined surface of the lower pressure wedge 9 located in the pressure device 8 is facing up, the inclined surface of the upper pressure wedge 10 is facing down. The wide side 31 of the middle clamping wedge 11, visible in a transverse section, faces the hole 3 of the frame 1, while the wide sides 28 of the lower and upper clamping wedges 9, 10 face the wall of the frame 1 opposite the hole 3 of the frame 1. Thus, the small sides 29 of the lower and upper pressure wedges 9, 10 and the wide side 31 of the middle pressure wedge 11 are facing the hole 3 of the frame 1. Accordingly, the wide sides 28 of the lower and upper pressure wedges 9, 10 and the small side 30 of the middle pressure wedge 11 are facing the wall of the frame 1 Clamping screw 7 p Placed in the middle of the pressure wedges 9-11.

In the lower and upper clamping wedges 9, 10, the clamping screw 7 is located in a circular hole 32 corresponding to the size of the screw 7. On the average clamping wedge 11, the clamping screw 7 is located inside the groove 34, allowing the middle clamping wedge 11 to smoothly move relative to the clamping screw 7 and the lower and the upper clamping wedges 9, 10. At one end of the clamping screw 7, a nut 37 is located in the groove of the lower clamping wedge 9. The specified groove is formed in the shape of the nut 37 to prevent it from turning and to tighten the clamping screw 7. ie, the 6 screws for attaching the frame to the wall or the like pass into the grooves 33 on opposite sides of the lower and upper clamping wedges 9, 10. In the indicated embodiment of the invention, bushings are located in the frame in which the screws 6 are placed, these bushings form through holes for receiving screws 6. In this case, the bushings are placed in the grooves 33 lower and upper clamping wedges 9, 10. Due to the placement of these fastening means in the grooves, the pressing wedges 9, 10 take a stable position. Thus, the lower and upper clamping wedges 9, 10 will freely move only up and down depending on the movement of the clamping screw 7.

The middle clamping wedge 11 in the section containing the groove 34 has a smaller width than in the section with the wide side 31. The less wide section should be small enough to pass between the screws 6 used to secure the frame 1. Thus, the middle clamping wedge 11 can freely move between the screws 6 in the horizontal direction.

The principle of operation of the pressing device 8 is shown in Fig.6. When tightening the clamping screw 7 with a nut located at one end, the upper and lower clamping wedges 9, 10 will be compressed towards each other, as shown by the vertical arrows in Fig.6. Due to the inclined surfaces of the pressure wedges 9-11, when compressed towards each other, the wedges 9, 10, the wedge 11 will move in the direction of the horizontal arrow, as shown in Fig.6. The middle clamping wedge 11 moves freely in the horizontal direction due to the groove receiving the clamping screw 7, and due to the portion of the middle clamping wedge 11 having a smaller width than the distance between the mounting means of the frame 1. The middle clamping wedge 11 will move towards the hole 3 of the frame 1 and will compress the modules 2 inside the hole 3 of the frame 1.

In one embodiment, the lower and upper pressure wedges 9, 10 are made of plastic, such as PA66, 306F or the like, while the middle pressure wedge 11 is made of rubber, such as EPDM, Roxylon, or the like. Grease is usually applied to the inclined contact surfaces of the pressure wedges 9-11.

7-9 show another example of a frame 12 according to the present invention, containing an integrated clamping device. The pressing device has the same structure as the pressing device 8 of the frame 1 shown in FIGS. 1-4, and therefore, will not be described in detail in the present description. However, in this case, the clamping device contains two clamping screws 24.

The frame 12, shown in Fig.7-9, contains a hole 13 for receiving several modules containing cables or pipes. The clamping device is located on one edge of the hole 13, and the wall 14 protrudes above the clamping device. The frame 12 contains a flange 15 protruding from the upper part of the frame 12 and surrounding the hole 13. The hole 13 is formed by a wall 17 having the shape of an open rectangle. The wall is formed from the frame 18. The wall 17 is perpendicular to the flange 15 and the modules to be placed in the hole 13 formed inside the wall 17. In use, the wall 17 is usually located inside the hole made in the wall, and the flange 15 is attached to the wall outside the hole made in the wall. To fix the frame 12 to the wall around the perimeter of the flange 15 there are several holes 16.

Openings for receiving clamping screws 24 are located in a wall 14 protruding above the clamping device. As described above, the clamping screws 24 can be connected to nuts located in the grooves of the lower clamping device 25. As described above, the clamping screws 24 pass through round holes in lower clamping wedge 25 and upper clamping wedge. The clamping screws 24 are installed in the grooves of the middle clamping wedge 26. In this case, the fixing means for the frame 12 are not connected to the clamping device. Therefore, the pressure wedges should not be capable of receiving any fastening means and may have a rectangular shape in a plan view. The clamping wedges have inclined surfaces, so that when tightening the clamping screws 24, the middle clamping wedge 26 is pressed toward the center of the opening 13 of the frame 12. At the top of the wall 14, two ribs 35, 36 are located parallel to the edge between the wall 14 and the opening 13 of the frame 12. One rib 35 is mounted in connection with the holes for the clamping screws 24. Another rib 36 is mounted on the edge of the wall 14 and protrudes a small distance downward into the hole 13. The portion of the rib 36 protruding into the hole 13 allows holding the clamping device 23 in the space under the wall 14. The ribs 35, 36 are mounted on the upper side of the wall 14, i.e. on the opposite side of the pressing device 23.

The frame 19 shown in FIG. 10 corresponds to the frame 12 shown in FIGS. 7-9, except that the frame 19 has two openings, each of which has an integrated pressure device 23. Thus, the frame 19 contains a flange 20 and walls 21 surrounding two openings. FIG. 10 shows a frame 19 with receiving modules 22. A support plate 27 is installed between each row of modules. As shown in FIG. 10, the modules 22 can be of different sizes and accept cables or tubes of different diameters. In this example, the modules 22 contain easily removable sheets for fitting the inner diameter of the modules 22 to the outer diameter of the received cable or pipe.

In the work, regardless of the type of frame used, due to the inclined contact surfaces of the pressure wedges, the middle pressure wedge is pressed towards the center of the frame opening while tightening the clamp screw or screws. Consequently, the middle pressure wedge compresses the modules, which are made of elastic material, inside the hole. By compressing the modules, the cable or pipe located inside the opening of the frame is compressed.

One skilled in the art will recognize that the design of the frames may vary. For example, in one embodiment of the invention, the frame shown in FIGS. 1-4 contains two openings containing modules.

As mentioned above, the clamping device 8, 23 is usually made with a frame (1, 12, 19) during one technological operation. In addition, in one process step, a seal can be made that seals the partition in which the frame is located. The frame and the integrated clamping device are usually molded in a chill mold, but injection molding is also possible.

Claims (12)

1. A frame (1, 12, 19) containing an opening (3, 13) for receiving at least one module (2, 22) and forming, together with the modules (2, 22), a transition for cables or pipes, characterized in that the integrated part of the frame (1, 12, 19) is the clamping device (8, 23), which is located in the space under the cover at one edge of the indicated hole (3, 13) of the frame (1, 12, 19), and the specified space is open in the direction to the hole (3, 13), and the pressure device (8, 23) contains a lower pressure wedge (9, 25), an upper pressure wedge (10) and a middle pressure wedge (11, 26), while these clamping wedges (9-11, 25, 26) have inclined contact surfaces. 2. The frame according to claim 1, in which at least one clamping screw (7, 24) located in the round holes (32) of the lower and upper clamping wedges (9) passes through each clamping wedge (9-11, 25, 26) , 10, 25) and in at least one groove (34) of the middle clamping wedge (11, 26). 3. The frame according to claim 1, in which the lower and upper pressure wedges (9, 10, 25) have the same orientation, while the middle pressure wedge (11, 26) has the opposite orientation, with the wide side (31) of the middle pressure wedge ( 11, 26) is facing the hole (3, 13) of the frame (1, 12, 19) for receiving modules (2, 22). 4. The frame according to claim 1, in which the lower and upper clamping wedges (9, 10, 25) on the opposite sides have grooves (33) for receiving rods of fastening means of the frame or receiving bushings for fixing means, and the width of the middle clamping wedge ( 11, 26), facing away from the hole (3, 13) of the frame (1, 12, 19), is less than the distance between the fastening means or the receiving bushings. 5. The frame according to claim 1, in which at the upper end of the hole (3) receiving the modules (2), an edge (5) is formed over which the hole (3) is converted into a smaller hole (4), and the modules (2) have the size that prevents them from passing through the edge (5). 6. The frame according to claim 1, in which the cover over the clamping device (23) is a wall (14) containing at least one hole for receiving at least one clamping screw (24). 7. The frame according to claim 6, in which on the upper side of the wall (14), i.e. on its side opposite the clamping device (23), there is at least one rib (35, 36), while one of the ribs (36) is located on the free end of the wall (14) and protrudes downward into the hole (13) of the frame (12 , 19). 8. The frame according to claim 6, which contains a flange (15, 20), covering the circumference of the hole (13) of the frame (15, 20) for receiving modules (22). 9. The frame according to claim 1, in which the frame (20) contains at least two holes for receiving modules (22), and a clamping device (23) is installed in each hole. 10. A method of manufacturing a frame according to any one of the preceding paragraphs, characterized in that the frame and the integrated clamping device are made in the course of one technological operation. 11. The manufacturing method according to claim 10, according to which the frame seal (1, 12, 19) is made during the specified one technological operation. 12. The manufacturing method according to claim 11, according to which the specified technological operation includes casting in a chill mold.

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